位置:成果数据库 > 期刊 > 期刊详情页
提高两类不同折射率粒子的俘获效应
  • ISSN号:1000-5811
  • 期刊名称:陕西科技大学学报
  • 时间:2012
  • 页码:120-122+126
  • 相关项目:俘获两类不同折射率粒子的光镊原理与实验研究
作者: 马忠华|张耀举|李世磊|
同期刊论文项目
俘获两类不同折射率粒子的光镊原理与实验研究
期刊论文 35 会议论文 7
同项目期刊论文
3D SUPER-RESOLUTION FLUORESCENCE MICROSCOPY USING CYLINDRICAL VECTOR BEAMS
High-power eye-safe KTA-OPO driven by YVO4/Nd:YVO4 composite laser
Generation of 2-μm Light Based on a Noncritical Phase Matching OPO Technique
长周期光纤光栅折射率传感器的结构优化
LD End-Pumped c-Cut Nd:YVO(4)/KTP Self-Raman Laser at 560 nm
半导体激光端面抽运Nd:YVO4自拉曼和频559纳米激光
LD端面抽运Nd:YLF/KTA连续光参量振荡激光
适用于QAM 系统检测的动力学驱动RNN 激励函数
连续多阈值神经元反馈神经网络盲检测光基带信号
基于电域反馈神经网络的自适应盲均衡方法
光通信信道电域盲均衡的脊回归方法
PERIODIC TRANSMISSION OF CIRCULAR BINARY FRESNEL ZONE PLATES WITH ETCHING DEPTH AND SUBSTRATE
Analysis of nearfield subwavelength focusing of hybrid amplitude–phase Fresnel zone plates und
All-optical steering of the interactions between multiple spatial solitons in isotropic polymers
Symmetry properties of three-dimensional magnetization distributions induced by focused circularly p
被均匀光墙包围的微小三维暗斑的形成
Generation of three-dimensional dark spots with a perfect light shell with a radially polarized Lagu
ENHANCING NEAR-FIELD PHOTOLITHOGRAPHY BY SURFACE PLASMON POLARITONS EXCITED FROM NEGATIVE-REFRACTIVE
聚焦光在单轴晶体中的感应磁化
Trapping Rayleigh particles using highly focused higher-order radially polarized beams
用振幅-相位杂化滤波器提高近场光存储系统的焦深
用三区三元相位滤波器提高近场光存储系统的焦深
高通滤波器在荧光分子显微中的超分辨
Multifocal optical trapping using counter-propagating radially-polarized beams
Optimizing the optical field distribution of near-field SIL optical storage system using five-zone b
Interactions of dark solitons in photovoltaic photorefractive crystals with diffusion nonlinearity
LD end-pumped c-cut Nd:YVO(4) laser at 589 nm generated by sef-Raman conversion and frequency doubli
LD端面抽运c切Nd:YVO_4自拉曼倍频589nm黄光激光研究
Laser Induced Blue Luminescence Phenomenon
浸没环境对自负折射率薄膜表面反射光的Goos-Hnchen位移的影响
DIODE-END-PUMPED ND:YAG CERAMIC AND CRYSTAL OPERATION AT 1,123 nm
用菲涅耳波带片俘获两个Rayleigh粒子
半导体激光端面抽运Nd:YVO4自拉曼和频559nm激光
光学薄膜厚度实时在线监测系统的设计